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Solving Highly Cyclic Distributed Optimization Problems Without Busting the Bank: A Decimation-based Approach
Logic Journal of the IGPL 29 (1):72-95 (2021)
Abstract
In the context of solving large distributed constraint optimization problems, belief-propagation and incomplete inference algorithms are candidates of choice. However, in general, when the problem structure is very cyclic, these solution methods suffer from bad performance, due to non-convergence and many exchanged messages. As to improve performances of the MaxSum inference algorithm when solving cyclic constraint optimization problems, we propose here to take inspiration from the belief-propagation-guided decimation used to solve sparse random graphs. We propose the novel DeciMaxSum method, which is parameterized in terms of policies to decide when to trigger decimation, which variables to decimate and which values to assign to decimated variables. Based on an empirical evaluation on a classical constraint optimization benchmarks, some of these combinations of policies, using periodic decimation, cycle detection-based decimation, parallel and non parallel decimation, random or deterministic variable selection and deterministic or random sampling for value selection, outperform state-of-the-art competitors in many settings.Author's Profile
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Citations of this work
Special issue on logics and artificial intelligence.Zoe Falomir, Vicent Costa, Enric Plaza & Karina Gibert - 2021 - Logic Journal of the IGPL 29 (1):1-6.
References found in this work
Adopt: asynchronous distributed constraint optimization with quality guarantees.Pragnesh Jay Modi, Wei-Min Shen, Milind Tambe & Makoto Yokoo - 2005 - Artificial Intelligence 161 (1-2):149-180.
Bounded approximate decentralised coordination via the max-sum algorithm.A. Rogers, A. Farinelli, R. Stranders & N. R. Jennings - 2011 - Artificial Intelligence 175 (2):730-759.
Distributed stochastic search and distributed breakout: properties, comparison and applications to constraint optimization problems in sensor networks.Weixiong Zhang, Guandong Wang, Zhao Xing & Lars Wittenburg - 2005 - Artificial Intelligence 161 (1-2):55-87.
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